peer reviewedBeing capable of estimating the pose of uncooperative objects in space has been proposed as a key asset for enabling safe close-proximity operations such as space rendezvous, in-orbit servicing and active debris removal. Usual approaches for pose estimation involve classical computer vision-based solutions or the application of Deep Learning (DL) techniques. This work explores a novel DL-based methodology, using Convolutional Neural Networks (CNNs), for estimating the pose of uncooperative spacecrafts. Contrary to other approaches, the proposed CNN directly regresses poses without needing any prior 3D information. Moreover, bounding boxes of the spacecraft in the image are predicted in a simple, yet efficient manner. The perfor...
peer reviewedEstimating the pose of an uncooperative spacecraft is an important computer vision prob...
In recent years, there is an increasing demand for orbital robotic missions for various reasons such...
Vision-based relative navigation technology is a key enabler of several areas of the space industry ...
peer reviewedBeing capable of estimating the pose of uncooperative objects in space has been propose...
This paper aims to present a deep learning-based pipeline for estimating the pose of an uncooperativ...
The relative pose estimation of an inactive spacecraft by an active servicer spacecraft is a critica...
A novel method for monocular-based pose estimation of uncooperative spacecraft using keypoints speci...
This paper introduces a novel framework which combines a Convolutional Neural Network (CNN) for feat...
abstract: Convolutional neural networks boast a myriad of applications in artificial intelligence, b...
This work presents Spacecraft Pose Network v2 (SPNv2), a Convolutional Neural Network (CNN) for pose...
State-of-the-art methods for estimating the pose of spacecrafts in Earth-orbit images rely on a conv...
Vision-based relative navigation technology is a key enabler of several areas of the space industry ...
The estimation of the relative pose of an inactive spacecraft by an active servicer spacecraft is a ...
This paper presents an innovative deep learning pipeline which estimates the relative pose of a spac...
abstract: Accurate pose initialization and pose estimation are crucial requirements in on-orbit spac...
peer reviewedEstimating the pose of an uncooperative spacecraft is an important computer vision prob...
In recent years, there is an increasing demand for orbital robotic missions for various reasons such...
Vision-based relative navigation technology is a key enabler of several areas of the space industry ...
peer reviewedBeing capable of estimating the pose of uncooperative objects in space has been propose...
This paper aims to present a deep learning-based pipeline for estimating the pose of an uncooperativ...
The relative pose estimation of an inactive spacecraft by an active servicer spacecraft is a critica...
A novel method for monocular-based pose estimation of uncooperative spacecraft using keypoints speci...
This paper introduces a novel framework which combines a Convolutional Neural Network (CNN) for feat...
abstract: Convolutional neural networks boast a myriad of applications in artificial intelligence, b...
This work presents Spacecraft Pose Network v2 (SPNv2), a Convolutional Neural Network (CNN) for pose...
State-of-the-art methods for estimating the pose of spacecrafts in Earth-orbit images rely on a conv...
Vision-based relative navigation technology is a key enabler of several areas of the space industry ...
The estimation of the relative pose of an inactive spacecraft by an active servicer spacecraft is a ...
This paper presents an innovative deep learning pipeline which estimates the relative pose of a spac...
abstract: Accurate pose initialization and pose estimation are crucial requirements in on-orbit spac...
peer reviewedEstimating the pose of an uncooperative spacecraft is an important computer vision prob...
In recent years, there is an increasing demand for orbital robotic missions for various reasons such...
Vision-based relative navigation technology is a key enabler of several areas of the space industry ...